Advanced Manufacturing Research & Development at the U.S ... · Advanced Manufacturing Research &...
Transcript of Advanced Manufacturing Research & Development at the U.S ... · Advanced Manufacturing Research &...
1 | Energy Efficiency and Renewable Energy eere.energy.gov
Advanced Manufacturing Research & Development at the U.S. Department of Energy H2@Scale Workshop Golden, CO
November 17th, 2016
Mark Johnson Director Advanced Manufacturing Office www.manufacturing.energy.gov
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• Overview of DOE Advanced Manufacturing Office
• Technology Assistance Programs
• Research and Development Projects
• Research and Development Consortia
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Efficient Energy
Solutions
Environment
Security
• Competitiveness in energy technology
• Domestic jobs
• Clean air • Climate change • Health
• Energy self-reliance • Stable, diverse
energy supply
Economy
Energy and Manufacturing: Nexus of Opportunities
Goals • Develop a robust U.S. energy systems economy where products are
developed here and manufactured here • Make the entire U.S. manufacturing sector more competitive by making it
more energy productive
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The Start of the Manufacturing Revolution
Lexington & Concord 1775
Watt, Boulton & Co. 1775
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Manufacturing partnership goes back a bit…….
… the encouragement of manufactures is the interest of all parts of the Union.
Not only the wealth; but the independence and security of a country, appear to be materially connected with the prosperity of manufactures.
… it is the interest of a community with a view to eventual and permanent economy, to encourage the growth of manufactures.
Alexander Hamilton, Treasury Secretary Report to Congress, December 1791
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Today’s Goal: Energy products invented here and made here
Focus on: • Energy efficient manufacturing • Competitive manufacturing of energy technologies • Technology + Talent (People)
This Decade:
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70GW+ 3x increase
30% cost reduction
Wind Power:
This Decade:
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25GW+ 20x increase
60% cost reduction
Solar Power:
This Decade
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420,000+ EV’s 70% battery cost reduction
Batteries & EVs:
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Advanced Manufacturing – Strategic Framing
Advanced Manufacturing Partnership (AMP2.0) (NEC / PCAST / OSTP 2013 & 2014)
Strategic Plans (DOE 2014 & EERE 2016)
Quadrennial Technology Review (DOE / Science and Technology 2015)
1) Broadly Applicable Energy Efficiency Technologies for Energy Intensive and Energy Dependent Manufacturing
2) Platform Materials, Process and Information Technologies for Clean Energy Manufacturing with Sustainable Life-Cycle Impact
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Some Additional Manufacturing Related Issues
Quadrennial Energy Review (QER): 2015 - Manufacturing for Infrastructure and the Grid
Water-Energy Nexus: 2014 - Water for Energy & Energy for Water
Energy Productivity 2030: 2015 - Double GDP/kJ Economy from Energy
Innovation Strategy: 2015 - Technology, Workforce & Capabilities
Job Training and Apprenticeship: 2015 - Advanced Manufacturing Skills and Opportunities
Revolution Now: 2015 - Cost Effective New Technologies
3) Promotion of Innovation Partnerships
4) Tools, Training & Human Capital Development
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Energy Use in the US Economy
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Energy Intensive Industries
Primary Metals 1608 TBTU
Petroleum Refining 6137 TBTU
Chemicals 4995 TBTU
Wood Pulp & Paper 2109 TBTU
Glass & Cement 716 TBTU
Food Processing 1162 TBTU
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Processes for Clean Energy Materials & Technologies Energy Dependence: Energy Cost Considered in Competitive Manufacturing
Solar PV Cell
Carbon Fibers
Light Emitting Diodes
Electro-Chromic Coatings
Membranes
EV Batteries
Multi-Material Joining Water Desalination
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Primary Energy & Energy-related Emissions by Sector
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Manufacturing Bandwidth Studies: Energy Savings Potential
AMO: September 2015
Current opportunities represent energy savings that could be achieved by deploying the most energy-efficient commercial technologies available worldwide. R&D opportunities represent potential savings that could be attained through successful deployment of applied R&D technologies under development worldwide
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Deeper Look at Energy in Manufacturing
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Advanced Manufacturing in the Department of Energy
Basic and Applied Science Coordinated Materials & Manufacturing
Energy Efficiency & Renewable Energy
Sustainable Transportation
Renewable Power
Energy Efficiency
Advanced Manufacturing Office
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Quadrennial Technology Review: Manufacturing
Materials Development
Advanced Manufacturing Processes
Energy & Resource Management
Flow of Material thru Industry (Sustainable Manufacturing)
Critical Materials
Direct Energy Conversion Materials (Magnetocaloric, Thermoelectric, etc)
Wide Bandgap Power Electronics
Materials for Harsh Service Conditions
Advanced Materials & their Manufacture
Additive Manufacturing
Composite Materials Roll-to-Roll
Processing
Process Intensification
Process Heating
Advanced Sensors, Controls, Modeling
& Platforms
Waste Heat Recovery
Combined Heat and Power
Efficiency Technologies
Enabling Platform Technologies
Information Processes Materials
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Advanced Manufacturing Technology Areas
Efficiency Technologies for Manufacturing Processes (Energy, CO2) (1) Advanced Sensors, Controls, Modeling and Platforms (HPC, Smart Manufacturing) (2) Advanced Process Intensification (3) Grid Integration of Manufacturing (CHP, DG and DR) (4) Sustainable Manufacturing (Water-Energy, New Fuels & Reused Feedstocks)
Platform Materials & Technologies for Clean Energy Applications (5) Advanced Materials Manufacturing (incl: Extreme Mat’l., Conversion Mat’l, etc.) (6) Critical Materials (7) Advanced Composites & Lightweight Materials (8) 3D Printing / Additive Manufacturing (9) 2D Manufacturing / Roll-to-Roll Processes (10) Wide Bandgap Power Electronics (11) Next Generation Electric Machines (NGEM)
QTR Manufacturing (Ch.6) Focus Areas Mapped to Advanced Manufacturing Research & Development Areas
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Impact Areas of Cross-Cutting Efficiency Technology for Energy Intensive Industry Sectors
Chemicals & Bio-chemicals
Petroleum Refining
Primary Metals
Forest & Food Products
Clean Water
SMART Manufacturing
Process Intensification
CHP & Grid Integration
Sustainable Manufacturing
Sector Specific Roadmaps through Complementary Program Supported by NIST / AmTech
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AMO: Three complementary strategies
Technical Assistance: Engagement with Industry
Driving a corporate culture of continuous improvement and wide scale adoption of proven technologies, such as CHP, to reduce energy use in the industrial sector
R&D Projects: Bridging technology innovation gaps
Research and Development Projects to support innovative manufacturing processes and next-generation materials
R&D Consortia: Public-Private R&D Partnerships
Shared R&D Facilities offer affordable access to physical and virtual tools, and expertise, to foster innovation and adoption of promising technologies
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• Overview of DOE Advanced Manufacturing Office
• Technology Assistance Programs
• Research and Development Projects
• Research and Development Consortia
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Technical Assistance: Better Plants Program
• Key component of Better Buildings Initiative to improve energy efficiency of commercial and industrial buildings by 20% by 2020.
• Voluntary pledge by manufacturers and industrial-scale energy users to reduce energy intensity
• DOE provides technical assistance to meet goals and firms report progress
• To date, Better Plants Partners have reported
(more than 0.45 Quads of energy)
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Technical Assistance: Better Plants Program
• National recognition • In-Plant Trainings • Networking opportunities • Access to an expert Technical Account Manager • Enhanced access to DOE resources and
opportunities
Partners benefit from…
For more info go to www.energy.gov/BetterPlants
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ISO 50001–Energy Management Systems (EnMS)
International standard that draws from best practices around the world. Developed with input from 56 countries, many countries now adopting it as a national standard.
ISO 50001 specifies requirements for establishing, implementing, maintaining and improving an EnMS.
Light blue text represents new data-driven sections in ISO 50001 that are not in ISO 9001 & ISO 14001
It does not prescribe specific energy performance improvement criteria.
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ISO 50001 Components in place: • Top Management • Energy Team • Policy • Planning • Baseline • Performance Metrics
Superior Energy Performance
Single facility ISO 50001 conformance with verified energy performance improvement
ISO 50001 ISO 50001 is a foundational tool that any organization can use to manage energy
Superior Energy Performance™
• SEP is a certification program that helps facilities meet the ISO 50001 energy management standard and verify the savings they achieve
• 28 plants have been certified so far. Nine improved energy performance by an average of 10% and saved over $500,000 per year
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• Education and Outreach Providing information on the energy and non-energy benefits and applications of CHP
• Technical Assistance Providing technical assistance to end-users and stakeholders to help them consider CHP, waste heat to power, and/or district energy with CHP in their facility
• Market Opportunity Analysis Supporting analyses of CHP market opportunities in diverse markets including industrial, federal, institutional, and commercial sectors
Technical Assistance: Combined Heat and Power
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Technical Assistance: Combined Heat and Power
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Technical Assistance: Industrial Assessment Centers Energy Assessments & Student Training
University-based Industrial Assessment Centers Support for small/medium sized manufacturing
Energy.gov/IAC